US2023272410A1PendingUtilityA1

Plant transactivation interaction motifs and uses thereof

Assignee: CORTEVA AGRISCIENCE LLCPriority: Feb 2, 2012Filed: Jan 20, 2023Published: Aug 31, 2023
Est. expiryFeb 2, 2032(~5.5 yrs left)· nominal 20-yr term from priority
C12N 15/8216C07K 14/415C12N 15/625C12N 15/8217C12N 15/62C07K 14/4705C07K 2319/71C12N 15/67C12Y 203/01183C07K 2319/81Y02A40/146
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Claims

Abstract

This disclosure concerns compositions and methods for increasing the expression of a polynucleotide of interest. Some embodiments concern novel transactivation polypeptides and variants thereof that have been identified in plants, and methods of using the same. Particular embodiments concern the use of at least one DNA-binding polypeptide in a fusion protein to target at least one transactivation polypeptide or variant thereof to a specific binding site on a nucleic acid comprising the polynucleotide of interest, such that its expression may be increased.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
         1 .- 65 . (canceled) 
     
     
         66 . A synthetic transcriptional activator fusion protein comprising:
 a single DNA-binding peptide; and   a heterologous transactivation domain comprising the interaction motif peptide of SEQ ID NO:22.   
     
     
         67 . The synthetic transcriptional activator fusion protein of  claim 66 , wherein the DNA-binding peptide is selected from the group consisting of a zinc finger DNA-binding domain; a consensus binding sequence from a AVRBS3-inducible gene or synthetic binding sequence engineered therefrom; TAL; LexA; a Tet repressor; LacR; and a steroid hormone receptor. 
     
     
         68 . The synthetic transcriptional activator fusion protein of  claim 67 , wherein the DNA-binding peptide is a zinc finger DNA-binding domain. 
     
     
         69 . The synthetic transcriptional activator fusion protein of  claim 66 , wherein the transactivation domain comprises an amino acid sequence that is at least 80% identical to SEQ ID NO:109 or SEQ ID NO:110. 
     
     
         70 . The synthetic transcriptional activator fusion protein of  claim 66 , wherein the transactivation domain comprises an amino acid sequence that is at least 95% identical to SEQ ID NO:109 or SEQ ID NO:110. 
     
     
         71 . The synthetic transcriptional activator fusion protein of  claim 66 , wherein the transactivation domain comprises SEQ ID NO:109 or SEQ ID NO:110. 
     
     
         72 . A nucleic acid molecule comprising a polynucleotide encoding the synthetic transcriptional activator fusion protein of  claim 66 , the polynucleotide comprising: a first nucleotide sequence encoding the DNA-binding peptide; and, a second nucleotide sequence encoding the heterologous transactivation domain, wherein the first and second nucleotide sequences are expressed from the nucleic acid molecule in frame and in a single transcript. 
     
     
         73 . The nucleic acid molecule of  claim 72 , wherein the first and second nucleotide sequences are separated by a third nucleotide sequence in the polynucleotide. 
     
     
         74 . The nucleic acid molecule of  claim 72 , wherein the polynucleotide is operably linked to a gene regulatory element. 
     
     
         75 . A vector comprising the nucleic acid molecule of  claim 72 . 
     
     
         76 . The nucleic acid molecule of  claim 74 , wherein the gene regulatory element is a promoter that is functional in a plant cell. 
     
     
         77 . A host cell comprising the nucleic acid molecule of  claim 72 . 
     
     
         78 . The host cell of  claim 77 , wherein the host cell is a plant cell or a yeast cell. 
     
     
         79 . The plant host cell comprising the nucleic acid molecule of  claim 78 . 
     
     
         80 . The plant host cell of  claim 79 , wherein the polynucleotide and gene regulatory element are integrated into the genome of the cell. 
     
     
         81 . A transgenic plant material comprising the nucleic acid molecule of  claim 72 . 
     
     
         82 . The transgenic plant material of  claim 81 , wherein the plant material is a plant cell, plant cell culture, plant tissue, plant tissue culture, plant part, plant commodity product, or whole plant. 
     
     
         83 . The transgenic plant material of  claim 81 , wherein the plant material is a plant cell, plant cell culture, plant tissue, plant tissue culture, plant part, or whole plant. 
     
     
         84 . A method for increasing the expression of a polynucleotide of interest in a host cell, the method comprising: introducing the nucleic acid molecule of  claim 72  into a host cell comprising the polynucleotide of interest, wherein the polynucleotide of interest is operably linked to a second polynucleotide that binds specifically to the DNA-binding peptide, thereby increasing the expression of the polynucleotide of interest in the host cell. 
     
     
         85 . The method according to  claim 84 , wherein the host cell is a plant cell. 
     
     
         86 . The method according to  claim 84 , wherein introducing the nucleic acid molecule into the host cell comprises crossing a plant comprising the polynucleotide encoding the synthetic transcriptional activator fusion protein with a plant comprising the host cell. 
     
     
         87 . The method according to  claim 84 , wherein the introducing into the host cell a nucleic acid molecule comprises transforming said host cell with the nucleic acid molecule encoding the synthetic transcriptional activator protein. 
     
     
         88 . The nucleic acid molecule of  claim 87 , further comprising a promoter and a 3′ UTR.

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